JMES The International Journal of Mechanical Engineering and Sciences
Vol 5, No 1 (2021)

Numerical Study of Epoxy-Ramie Fiber Composite as a Type IV Ballistic Resistant Material

Sutikno Sutikno (Department of Mechanical Engineering, ITS)
Rayhan Fikriandry Rizal (Department of Mechanical Engineering, ITS)
Ahmat Safaat (Department of Mechanical Engineering, ITS)

Article Info

Publish Date
31 Mar 2021

Abstract

This paper studies the response of epoxy-ramie fiber composite as ballistic-resistant material using a finite element model. The simulation test was conducted by varying the number of layers and referred to NIJ 0101.06 Type IV as the boundary condition. The model used was a panel made from epoxy-ramie composite laminates with a certain thickness and a 7.62 mm bullet. NIJ states that ballistic material should withstand penetration, and the back-face signature (BFS) should not exceed 44 mm. The impact energy is not briefly mentioned in NIJ failure criteria. The properties of the composite and the bullet were obtained from scientific literature and previous study. The effect of the number of layers on impact response was evaluated by the penetration, deformation, BFS, and absorbed energy.

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Journal Info
JMES The International Journal of Mechanical Engineering and Sciences
Website

Abbrev

jmes

Publisher

Institut Teknologi Sepuluh Nopember Surabaya

Subject

Energy Materials Science & Nanotechnology Mechanical Engineering

Description

Topics covered by JMES include most topics related to mechanical sciences including energy conversion (wind, turbine, and power plant), mechanical structure and design (solid mechanics, machine design), manufacturing (welding, industrial robotics, metal forming), advanced materials (composites, ...